Abstract
Cardiac fibrosis during Duchenne muscular dystrophy (DMD) arises from cellular damage and inflammation and is associated with myofibre hypertrophy and metabolic dysfunction. However, the extent to which these relationships develop across all 4 cardiac chambers, particularly during early-stage disease, remains unknown. Here, we discovered that very young D2.mdx mice exhibit fibrosis exclusively in the right ventricle (RV) and left atrium. Concurrent cardiomyocyte hypertrophy and disorganization in the RV were related to a highly specific inflammatory signature of increased infiltrating pro-inflammatory macrophages (CD11b+CD45+CD64+F4/80+CCR2+), myofibre mitochondrial-linked apoptosis, and reduced carbohydrate and fat oxidation. This relationship did not occur in the left ventricle. Short-term daily administration of a peptidomimetic adiponectin receptor agonist, ALY688, completely prevented RV fibrosis, myofibre hypertrophy, infiltrating macrophages and mitochondrial stress as well as left atrial fibrosis. Our discoveries demonstrate early-stage cardiac tissue pathology occurs in a chamber-specific manner and is prevented by adiponectin receptor agonism, thereby opening a new direction for developing therapies that prevent tissue remodeling during DMD.
Teaser Heterogeneous distribution of fibrosis, inflammation and metabolic dysfunction across the heart is prevented by adiponectin receptor agonism in a mouse model of Duchenne muscular dystrophy.
Competing Interest Statement
The authors have declared no competing interest.